Adaptogen Technology for Skin Resilience Benefits

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Cosmetics Pub Date : 2023-11-10 DOI:10.3390/cosmetics10060155

Andrea Cavagnino, Lionel Breton, Charline Ruaux, Celeste Grossgold, Suzy Levoy, Rawad Abdayem, Romain Roumiguiere, Stephanie Cheilian, Anne Bouchara, Martin A. Baraibar, Audrey Gueniche

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引用次数: 0

Abstract

(1) Background: Skin undergoes constant changes, providing capabilities to repair and renovate its constituents once damaged and a fundamental shield to contrast environmental stress. Nevertheless, environmental stressors may overcome the skin’s protective potential inducing premature aging and accelerating the appearance of anaesthetic age-related skin aspects. Ultraviolet radiation (UVR) and pollutants (particulate matters, PAHs) contribute to skin aging and functional decline inducing harmful oxidative modifications of macromolecules and stress-related skin disorders. Innovative approaches to preserve skin are needed. (2) Methods: Skin keratinocytes were treated (or not) with a combination of ingredients (Lactobacillus plantarum extract, Withania somnifera root extract and Terminalia ferdinandiana fruit extract; “MIX”) in the presence or absence of stress (oxidative stress or pollution). The effects of the MIX adaptogen technology on (a) cellular resilience, (b) the regulation of cellular functions and (c) regeneration of skin were disclosed through expression proteomics and bioinformatics analyses first, and then through focused evaluations of protein carbonylation as a hallmark of oxidative stress’ deleterious impact and mitochondrial activity. (3) Results: The deleterious impact of stressors was evidenced, as well as the beneficial effects of the MIX through (a) mitochondrial activity preservation, (b) the “vigilance” of the NRF2 pathway activation, (c) NADPH production and protein homeostasis improvements, (d) preserving skin regeneration function and I the contrasting stress-induced oxidation (carbonylation) of mitochondrial and nuclear proteins. (4) Conclusions: The effects of the MIX on increasing cell adaptability and resilience under stress suggested a beneficial contribution in precision cosmetics and healthy human skin by acting as an adaptogen, an innovative approach that may be employed to improve resistance to harmful stress with a potential favourable impact on skin homeostasis.

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适应原技术，皮肤弹性效益

(1)背景:皮肤经历着不断的变化，提供了修复和更新其成分的能力，一旦受损，它是对抗环境压力的基本屏障。然而，环境压力可能会克服皮肤的保护潜力，导致过早衰老，加速与年龄相关的皮肤麻醉的出现。紫外线辐射(UVR)和污染物(颗粒物、多环芳烃)会导致皮肤老化和功能下降，导致大分子的有害氧化修饰和应激相关的皮肤疾病。我们需要创新的方法来保护皮肤。(2)方法:用植物乳杆菌提取物、苦荞麦根提取物和费迪南果提取物组合处理(或不处理)皮肤角质细胞;“MIX”)在存在或不存在应激(氧化应激或污染)的情况下。MIX适应原技术对(a)细胞弹性、(b)细胞功能调控和(c)皮肤再生的影响首先通过表达蛋白质组学和生物信息学分析揭示，然后通过对作为氧化应激有害影响和线粒体活性标志的蛋白质羰基化的重点评估揭示。(3)结果:应激源的有害影响得到了证实，MIX的有益作用通过(a)线粒体活性保存，(b) NRF2通路激活的“警惕”，(c) NADPH产生和蛋白质稳态改善，(d)保持皮肤再生功能，以及I对比应激诱导的线粒体和核蛋白氧化(羰化)得到证实。(4)结论:MIX对提高细胞在压力下的适应性和弹性的作用表明，它作为一种适应原，在精密化妆品和健康人体皮肤中有有益的贡献，这是一种创新的方法，可以用来提高对有害压力的抵抗力，并对皮肤的内稳态产生潜在的有利影响。

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来源期刊

Cosmetics Medicine-Surgery

CiteScore

5.20

自引率

12.10%

发文量

108

审稿时长

8 weeks